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Background: Dental plaque is composed of bacterial derived extracellular polysacharide known as glucan which is synthesized by Streptococcus mutans. Natural substances that could inhibit the plaque formation of the bacteria have a significant importance. This investigation has evaluated the honey beeswax extract effect on the Gft production, the key enzyme of S. mutans colonization factor for the first time. Methods and Materials: In this experimental study extraction of the sample conducted with ethyl acetate and methanol solutions in the Clevenger extractor. The ethyl acetate soluble fraction was separated in the first step and after the evaporation of the first solute, the 70% methanol as inactive solvent was added and the water mixture was used as a second solution, then materials were separated with dH2O. Minimum inhibitory concentration (MIC) of the honey beeswax extract was assessed by Broth diffusion method. Examination of cell adherence (Biofilm Inhibitory Concentration, BIC) was calculated by colony counts from surface scratching of glass slides in the bacterial media that supplied with 1% sucrose. Glucosyltransferase expression was detected by 15% SDS poly acrylamide gel electrophoresis. Results: Concentration of 1mg/ml of ethyl acetate honey beeswax extract was inhibited completely biofilm and it was prevented the production of glucosyltransferase enzyme. The concentration of formation 6 mg/ml of the extract had bacteriostatic effect and 30 mg/ml concentration of this extract had bactericidal for S. mutans (P<0.01). Conclusion: The sub- bacterial concentrotion honey beeswax extract was able to block the major enzyme that contributes to S. mutans biofilm formation.

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Background: In the recent years, introducing plant materials with the ability to destroy or control of biofilm formation of Streptococcus mutans is highly regarded.This study was planned to investigate the anti-bacterial activity and biofilm inhibition of Satureja Khuzestanica Jamzad against biofilm and single form of S.mutans.

Materials and Methods: The plant material collected, air dried and powdred. Then thier methanolic extract prepared by maceration method.The concentrated extract then diluted by sterile phosphate buffer.The anti-bacterial and biofilm inhibition activity of the extracts evaluated by dick diffiusion and micro titeration method respectively. Also, bioinformatic study of glucansucrase inhibition by dominant plant compounds of S.Khuzestanica Jamzad investigated by molecular docking method using Auto dock4 software.

Results: The results revalued that all tested extracts especially leaf ectract had significant antibacterial activity against single form of S.mutans.Results also showed that leaf and stem extract had most and least biofilm inhibition with 70 and 13 presend inhibition, respectively. The bioinformatics results also confirmed that studied phytochemicals especially gama-terpinen, carvacrol and beta-bisabolene can effectively inhibit the glucansucrase.

Conclusion: The results of present study showed that S.Khuzestanica Jamzad had significant antibacterial activity against single form of S.mutans and gama-terpinen, carvacrol and beta-bisabolene are most effective compounds in biofilm inhibition.

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Background and Aim: There exists increased demineralization risk of enamel adjacent to fixed orthodontic attachments by cariogenic bacterias (e.g., Streptpcoccus mutans, Streptpcoccus sobrinus) and inadequate data about commonly used orthodontic cements. Thus, we evaluated the antibacterial effects of three common domestic and foreign orthodontic cements (Glass ionomer, Zinc phosphate, & polycarboxylate) on two cariogenic pathogens (S. mutans & S. sobrinus).
Methods & Materials: In this laboratory study, after culturing two standard strains of Streptococcus mutans and Subrinus bacteria and concentrating and diluting them, a direct contact test was used to evaluate the antibacterial properties of types of cement. The study groups (n=5) included the following: three types of glass ionomer resilience cement, Hoffman’s zinc phosphate and Hoffman’s polycarboxylate, and three glass ionomer cement, zinc phosphate, and carboxylate from Aria Dent factory in Iran. The acquired data were analyzed using SPSS v. 17.
Ethical Considerations: The present study was approved by Babol University of Medical Sciences (Code: MUBABOL.REC.1391.7).Results: In both types of culture media, containing Streptococcus mutans and Streptococcus subrinus bacteria, there was a significant difference between culture media containing 3 groups of cements respecting bacterial growth inhibition zone (P<0.001). In general, The mean diameter of the inhibition zone was greater in Iranian polycarboxylate, compared to its foreign counterpart (P<0.001).
Results: Regarding to zone of inhibition, there was statistically significant difference between three tested cements in both S.mutans and S.sobrinus culturing media (P<0.001). The mean diameter of inhibition zone was greater for Iranian polycarboxylate compared to its foreign counterpart (P<0.001).
Conclusion: Glass ionomer cement demonstrated better antibacterial effect compared to zinc phosphate and polycarboxylate cements. There was also greater antibacterial effect of three tested cements on S.sobrinus than S.mutans. Iranian polycarboxylate showed stronger inhibition on both mentioned bacterias compared to the foreign one.